Bone regenerative medicine: classic options, novel strategies, and future directions
TLDR
Tissue engineering is a new and developing option that had been introduced to reduce limitations of bone grafts and improve the healing processes of the bone fractures and defects and may open new insights in the near future.Abstract:
This review analyzes the literature of bone grafts and introduces tissue engineering as a strategy in this field of orthopedic surgery. We evaluated articles concerning bone grafts; analyzed characteristics, advantages, and limitations of the grafts; and provided explanations about bone-tissue engineering technologies. Many bone grafting materials are available to enhance bone healing and regeneration, from bone autografts to graft substitutes; they can be used alone or in combination. Autografts are the gold standard for this purpose, since they provide osteogenic cells, osteoinductive growth factors, and an osteoconductive scaffold, all essential for new bone growth. Autografts carry the limitations of morbidity at the harvesting site and limited availability. Allografts and xenografts carry the risk of disease transmission and rejection. Tissue engineering is a new and developing option that had been introduced to reduce limitations of bone grafts and improve the healing processes of the bone fractures and defects. The combined use of scaffolds, healing promoting factors, together with gene therapy, and, more recently, three-dimensional printing of tissue-engineered constructs may open new insights in the near future.read more
Citations
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Applications of Carbon Nanotubes in Bone Regenerative Medicine
Manabu Tanaka,Kaoru Aoki,Hisao Haniu,Takayuki Kamanaka,Takashi Takizawa,Atsushi Sobajima,Kazushige Yoshida,Masanori Okamoto,Hiroyuki Kato,Naoto Saito +9 more
TL;DR: The results of the research on CNT scaffolds for bone regeneration are focused on, the promising properties of scaffold properties are introduced, the potential of scaffolds are described, and the results are described.
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Surface characterization and biological properties of regular dentin, demineralized dentin, and deproteinized dentin.
TL;DR: DepD showed high rate of formation/deposition of hydroxyapatite crystals and adhesion/viability/osteogenic differentiation of human dental pulp stem cells, which may support its osteoinductive /osteoconductive potential for bone regeneration.
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3D Printed Wavy Scaffolds Enhance Mesenchymal Stem Cell Osteogenesis.
Shen Ji,Murat Guvendiren +1 more
TL;DR: 3D porous scaffolds with wavy or linear patterns were printed to investigate the effect of wavy scaffold architecture on human mesenchymal stem cell (hMSC) osteogenesis and found that hMSCs attached to wavy patterns, spread by taking the shape of the curvatures presented by the wavy pattern, exhibited an elongated shape and mature focal adhesion points, and differentiated into the osteogenic lineage.
Journal ArticleDOI
Biodegradable composite porous poly(dl-lactide-co-glycolide) scaffold supports mesenchymal stem cell differentiation and calcium phosphate deposition.
Serena Casagrande,Roberto Tiribuzi,Emanuele Cassetti,Francesca Selmin,Gian Luca Gervasi,Lanfranco Barberini,Marco Freddolini,Maurizio Ricci,Aurelie Marie Madeleine Schoubben,Giuliano Giorgio Cerulli,Paolo Blasi +10 more
TL;DR: The development of a composite porous poly(dl-lactide-co-glycolide) scaffold suitable for bone regeneration and able to sustain adipose-derived mesenchymal stem cell adhesion, infiltration, proliferation and osteo-differentiation is reported.
Journal ArticleDOI
Polymer-mineral scaffold augments in vivo equine multipotent stromal cell osteogenesis.
TL;DR: Addition of mineral to polymer scaffolds enhances equine MSC osteogenesis over polymer alone, but pure mineral scaffold provides superior osteogenic support.
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